INVERSION MODELLING OF SCHLUMBERGER VERTICAL ELECTRICAL SOUNDING DATA USING MODIFIED SYMBIOTIC ORGANISM SEARCH ALGORITHM (MSOS)
Vertical Electrical Sounding (VES) schlumberger configuration is one of geoelectrical method measurement techniques which is traditionally used to determine 1D models of subsurface structures for earth resources exploration and geotechnical investigations. One way to generate 1D model from VES d...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/64666 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Vertical Electrical Sounding (VES) schlumberger configuration is one of
geoelectrical method measurement techniques which is traditionally used to
determine 1D models of subsurface structures for earth resources exploration
and geotechnical investigations. One way to generate 1D model from VES
data is inversion technique. Mathematical equation that correlating VES data
and 1D resistivity model is non-linear so if inversion is imposed with a local
approach, it has potential to cause convergence to local minimum, therefore
global approach algorithm is required. One of algorithms with global
approach is modified Symbiotic Organism Search (mSOS), which is a
modified algorithm from original algorithm, this algorithm is populationbased algorithm inspired by interactions between organisms in ecosystem.
Dissimilar with original algorithm, which has 3 stages of optimization, mSOS
algorithm only consists of mutualism and commensalism phase without
parasitism phase. In this research, mSOS algorithm was applied to solve VES
data inversion problem using synthetic data and field data while still
including parasitism phase to increase exploration capacity. Optimum
solution is represented by a candidate solution from several models generated
randomly from number of populations that capable to survive after passing
through three stages. After testing inversion modeling, mSOS algorithm is
considered to have good exploration and exploitation capabilities in solution
search process. Results of inversion of synthetic data has been proven to be
able to retrieve inversion model parameters with match or close to
parameters of synthetic data model, while the field data inversion modeling
produces a resistivity pattern that has correlation between VES points and
borehole data |
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